Net Metering in Georgia

Net Metering

Only 30 ft tall kicks in at 6mph and at 12mph produces 36kw enough to power 30 average homes

Last Updated September 1, 2015

Program Overview

    • Implementing Sector:


    • Category:

      Regulatory Policy

    • State:


    • Incentive Type:

      Net Metering

    • Eligible Renewable/Other Technologies:

      Solar Photovoltaics, Wind (All), Fuel Cells using Non-Renewable Fuels, Wind (Small), Fuel Cells using Renewable Fuels

    • Applicable Sectors:

      Commercial, Industrial, Local Government, Nonprofit, Residential, Schools, State Government, Federal Government, Agricultural, Institutional

    • Applicable Utilities:

      All utilities

    • System Capacity Limit:

      10 kW for residential
      125% of demand for commercial

    • Aggregate Capacity Limit:

      0.2% of utility’s peak demand during previous year

    • Net Excess Generation:

      Credited to customer’s next bill at a predetermined rate filed with the PSC.

    • Ownership of Renewable Energy Credits:

      Not addressed

    • Meter Aggregation:

      Not addressed


Note: On May 12, 2015 Georgia’s governor signed House Bill 57 which allows residential and commercial customers to enter into third party financing deals for solar systems.

Georgia Power does not offer a net energy metering tariff. Net energy metering tariffs filed by cooperatives are recorded in Docket # 31536 on the Georgia Public Service Commission’s website. Customers should contact their utility to see if it offers net metering.

The Georgia Cogeneration and Distributed Generation Act of 2001 allows but does not require net energy metering to be adopted by utilities. The law requires all utilities — investor-owned utilities, municipal utilities and electric cooperatives — to offer bidirectional or single directional metering to customer generators, depending on how the customer’s facility is connected to the grid. Eligible technologies include photovoltaic (PV) systems, fuel cells and wind turbines up to 10 kilowatts (kW) in capacity for residential applications, and systems up to 100 kW for commercial applications. The aggregate capacity of such systems is limited to 0.2% of a utility’s system peak demand from the previous year.

Systems connected on the customer’s side of the meter use a bi-directional meter, and any net excess generation (NEG) is credited to the customer’s next bill at a predetermined rate filed with the Georgia Public Service Commission (this is currently the Solar Avoided Cost for Georgia Power) . Alternatively, a customer may choose to sell all electricity from a system (rather than using the electricity generated by the system) by connecting ahead of the meter.

HB 57 allows residential and commercial customers to work with third parties to install, operate, lease, and/or finance solar systems. The limit for residential customers is 10 kW and the limit for commercial customers is 125% of the actual or expected peak demand of the premises. All systems must meet applicable safety, power quality, and interconnection requirements. Commercial systems above 100 kW and residential systems above 10 kW are not explicitly prohibited at this time but may be subject to additional compliance requirements.


    • Date Enacted:

    • Effective Date:


  • Organization:

    Georgia Public Service Commission

  • Address:

    244 Washington Street, S.W.
    Atlanta, GA 30334-5701

  • Phone:

    (404) 651-5958

  • E-Mail:

  • Organization:

    Georgia Public Service Commission

  • Address:

    244 Washington Street, SW
    Atlanta, GA 30334

  • Phone:

    (404) 463-4249

  • E-Mail:



  • 09/01/2015 by Ethan Case

    Updated entry.

36KW Wind Turbine, Power Produced Each Month

The charts below gives a rough estimate of the power produced each month by Change Wind Corporations 36KW Helical Wind Turbine, and by a rough estimate I mean, the wind changes daily and your not going to get a wind to blow steadily at 10mph for a whole month.

 The main reason for the chart is to show how much electricity can be produced each month which is a lot, and that’s in the present time, what will it be 5 years from now or 10-20 years from now.

The cost per kilo watt hour has risen 30% or more in much of the USA over the past 10 years, some places a lot more then 30% and costs will continue to rise as coal mines are shut down and demand continues to rise.

Take the numbers from the chart and add about 50% more to that total and that’s the amount of power Change Winds 36KW wind turbine will produce 10-15 years from now.